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Uploaded byEr.Mohammad Aalam Raeen
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Automated Irrigation

Mohamad Aalam Raen presented on a solar powered automated irrigation system. The system uses solar panels to generate electricity and power a submersible pump that pumps water from a bore well to a storage tank. A controller and moisture sensor then automatically regulate the flow of water from the tank to irrigate fields, optimizing water usage. The system aims to provide farmers an alternative energy source for irrigation that is environmentally friendly and reduces their labor needs.

In this document
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Introduction to solar energy, its environmental benefits, and the system's efficiency for farmers.

Description of solar-powered irrigation components: solar pumping and automatic irrigation modules.

Details on water sources and the submersible pump's specifications, including pumping capacity and power.

Explanation of charge controller and inverter functions for optimizing power use in solar irrigation.

Block diagram and overall circuit diagram of the automated irrigation system utilizing solar energy.

Overview of project goals, essential components for solar-powered irrigation, and its agricultural applications.

Analysis of the advantages such as cost-efficiency and reliability, along with limitations including initial costs.

Conclusion on the positive impact of the system on water usage and potential for farmer revenue; invitation for questions.

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WEL-COME TO ALL OF YOU PRESENTING BY: MOHAMAD AALAM RAEEN B.Tech in electrical & Electronics Engineering 4th –Year BHAGWANT UNIVERSITY, Ajmer 1
2 SOLAR POWERED AUTOMATED IRRIGATION SYSTEM
3 Introduction:  Solar energy is the most abundant source of energy in the World. Solar Power is not only an answer to today’s energy crisis but also an environmental friendly form of energy.  Photovoltaic generation is an efficient approach for using the solar energy. Solar powered irrigation system can be a suitable alternative for farmers in the present state of energy crisis automatic irrigation system using solar power which drives water pumps to pump water from bore well to a tank and the outlet valve of tank is automatically regulated using controller and moisture sensor to control the flow rate of water from the tank to the irrigation field which optimizes the use of water. Solar Powered Automated Irrigation System
4 System Description: Proposed irrigation system mainly consists of two modules  Solar pumping module  Automatic irrigation module
Solar Based Irrigation 5
6 Solar Panel:  These panels are designed with solar cells composed of semiconductor materials.  The main function of Solar panels is to convert solar energy into DC electrical energy generally of 12V, which is further used for the rest of the circuit. The number of cells required and their size depends on the rating of the load.  The collection of solar cells can produce maximum electricity. But, the solar panel must place exactly at right angles to the sun rays.
7 The Source:  Water sources are available in the form of springs, drilled wells, rivers, ponds, etc. Submersible Pump:  This solar system contains a submersible pump, a water tank, an irrigation pump, associated water pumps.  This system is designed with 450W of power, which is capable of pumping 2000 liters of water within 60 minutes.  This power capacity takes into account the height difference between the water tank and the solar submersible pump.
8 Charge Controller:  A solar charge controller is very important device in any solar-power system.  It is used to maintain proper charging voltages of the batteries.  The charge controller controls current and voltage from the solar panel and charges the battery, and also stops the charging of the battery from over and undercharging conditions. Battery:  The Battery is an electric device that is used to store current which is produced from the solar panel and supplied to the corresponding loads. The number of batteries required depends on the load requirement.
9
10 Inverter:  The main function of the inverter is that it converts the battery’s voltage to AC voltage in order to activate then loads. Therefore, it helps us to run many electronic devices, home appliances and computers.  There are numerous types of inverters available in the market today.  The characteristics of typical inverters include high switching frequency, high conversion frequency and less harmonic content, and so on.
11
Automated Plant Irrigation System 12
VALCON (SOFTWARE) 13
Working Block Diagram 14
Overall Circuit Diagram 15
16 Solar Powered Auto Irrigation System:  The main goal of this project is to develop an irrigation system in the field of agriculture by using Solar Energy.  The required components are 8051 series Microcontroller, 12V DC mini submersible pump, Op-Amp, LCD, Solar Panel, MOSFET, Relay, Motor, Voltage Regulator, Diodes, Capacitors, Resistors, LED, Crystal and Transistors.
17 Applications:  Agriculture livestock watering / crop irrigation, home gardens and drip irrigation systems.  Domestic portable water for remote homes, campgrounds.  Pond water management and water transfer.  Water supply for villages in developing world.  equivalent voltage this is given to a sensing circuit which has a reference voltage that can be adjusted by the farmer for setting different moisture levels for different crops.
Advantages:-  Highly sensitive , low cost and reliable circuit.  Works according to the soil condition.  Complete elimination of manpower.  Can handle heavy loads up to 7A.  System can be switched into manual mode whenever required. 18
Disadvantages:- This is applicable for only large farms due to high initial implementation cost. Have limited life after installation due to the detoriation of the plastic component in a hot , arid climate when exposed to ultraviolet light. 19
20 Conclusion:  By using the automatic irrigation system it optimizes the usage of water by reducing wastage and reduce the human intervention for farmers  The excess energy produced using solar panels can also be given to the grid with small modifications in the system circuit which can be a source of the revenue of the farmer, thus encouraging farming in India and same time giving a solution for energy crisis.  Solar pumps also offer clean solutions with no danger of borehole contamination.  Solar Powered Auto Irrigation System is very helpful to Engineering Students.
Any Suggestion for this Technology………? Any Questions for this Technology…………? THANK YOU 21

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Automated Irrigation

  • 1.
    WEL-COME TO ALLOF YOU PRESENTING BY: MOHAMAD AALAM RAEEN B.Tech in electrical & Electronics Engineering 4th –Year BHAGWANT UNIVERSITY, Ajmer 1
  • 2.
  • 3.
    3 Introduction:  Solar energyis the most abundant source of energy in the World. Solar Power is not only an answer to today’s energy crisis but also an environmental friendly form of energy.  Photovoltaic generation is an efficient approach for using the solar energy. Solar powered irrigation system can be a suitable alternative for farmers in the present state of energy crisis automatic irrigation system using solar power which drives water pumps to pump water from bore well to a tank and the outlet valve of tank is automatically regulated using controller and moisture sensor to control the flow rate of water from the tank to the irrigation field which optimizes the use of water. Solar Powered Automated Irrigation System
  • 4.
    4 System Description: Proposed irrigationsystem mainly consists of two modules  Solar pumping module  Automatic irrigation module
  • 5.
  • 6.
    6 Solar Panel:  Thesepanels are designed with solar cells composed of semiconductor materials.  The main function of Solar panels is to convert solar energy into DC electrical energy generally of 12V, which is further used for the rest of the circuit. The number of cells required and their size depends on the rating of the load.  The collection of solar cells can produce maximum electricity. But, the solar panel must place exactly at right angles to the sun rays.
  • 7.
    7 The Source:  Watersources are available in the form of springs, drilled wells, rivers, ponds, etc. Submersible Pump:  This solar system contains a submersible pump, a water tank, an irrigation pump, associated water pumps.  This system is designed with 450W of power, which is capable of pumping 2000 liters of water within 60 minutes.  This power capacity takes into account the height difference between the water tank and the solar submersible pump.
  • 8.
    8 Charge Controller:  Asolar charge controller is very important device in any solar-power system.  It is used to maintain proper charging voltages of the batteries.  The charge controller controls current and voltage from the solar panel and charges the battery, and also stops the charging of the battery from over and undercharging conditions. Battery:  The Battery is an electric device that is used to store current which is produced from the solar panel and supplied to the corresponding loads. The number of batteries required depends on the load requirement.
  • 9.
  • 10.
    10 Inverter:  The mainfunction of the inverter is that it converts the battery’s voltage to AC voltage in order to activate then loads. Therefore, it helps us to run many electronic devices, home appliances and computers.  There are numerous types of inverters available in the market today.  The characteristics of typical inverters include high switching frequency, high conversion frequency and less harmonic content, and so on.
  • 11.
  • 12.
  • 13.
  • 14.
  • 15.
  • 16.
    16 Solar Powered AutoIrrigation System:  The main goal of this project is to develop an irrigation system in the field of agriculture by using Solar Energy.  The required components are 8051 series Microcontroller, 12V DC mini submersible pump, Op-Amp, LCD, Solar Panel, MOSFET, Relay, Motor, Voltage Regulator, Diodes, Capacitors, Resistors, LED, Crystal and Transistors.
  • 17.
    17 Applications:  Agriculture livestockwatering / crop irrigation, home gardens and drip irrigation systems.  Domestic portable water for remote homes, campgrounds.  Pond water management and water transfer.  Water supply for villages in developing world.  equivalent voltage this is given to a sensing circuit which has a reference voltage that can be adjusted by the farmer for setting different moisture levels for different crops.
  • 18.
    Advantages:-  Highly sensitive, low cost and reliable circuit.  Works according to the soil condition.  Complete elimination of manpower.  Can handle heavy loads up to 7A.  System can be switched into manual mode whenever required. 18
  • 19.
    Disadvantages:- This is applicablefor only large farms due to high initial implementation cost. Have limited life after installation due to the detoriation of the plastic component in a hot , arid climate when exposed to ultraviolet light. 19
  • 20.
    20 Conclusion:  By usingthe automatic irrigation system it optimizes the usage of water by reducing wastage and reduce the human intervention for farmers  The excess energy produced using solar panels can also be given to the grid with small modifications in the system circuit which can be a source of the revenue of the farmer, thus encouraging farming in India and same time giving a solution for energy crisis.  Solar pumps also offer clean solutions with no danger of borehole contamination.  Solar Powered Auto Irrigation System is very helpful to Engineering Students.
  • 21.
    Any Suggestion forthis Technology………? Any Questions for this Technology…………? THANK YOU 21